DE19633082C2 - Device for releasably attaching lines - Google Patents

Description

The invention relates to a device for releasable fastening of lines, especially hose, pipe and cable lines on a carrier, with one surrounding the line, on the carrier attached bearings for the lines, the bearing one for Carrier surface has approximately parallel end face, which by means of spacers from the support surface is spaced, the bearing in its Sheath area from the front towards the support surface projecting guide rails or guide pins and recess has lines for the lines, and the outer edges of the La gers define an at least three-fold symmetrical layout ren.

A particularly complex one for test and laboratory facilities Circuitry of pipes, hoses and cable lines often inevitable. At least partially parallel Lines are therefore combined into bundles. This is usually done by clamps, cuffs, bands or the like. Such routings require relatively high Space requirements and are often confusing what maintenance work particularly difficult. Other than that are in very many cases, crossing cable strands do not avoid, so that the Cable harnesses are on top of each other in several levels. Known Fasteners are, however, for a two-dimensional Cable routing designed, which is why loops in Purchase must be made. Through the loose loops in the Area of intersection is a well-defined and positional cable routing no longer exists The risk of damage to the cables is therefore relatively high.

From GB 2 129 481 A is a device of the beginning called kind known with which lines in one to the carrier parallel plane can be attached. The one on the carrier However, the device that can be attached to nails cannot be stacked and is therefore not suitable for attaching different oriented lines in several elements.  

From FR 2 332 634 A and DE 10 68 779 B are devices gene known in which holding modules made of elastic material stacked on top of each other and by means of snap locks are connected. All lines of the holding modules must al However, be oriented in parallel, measures for implementation there are no plans for crossing points.

The object of the invention is to avoid these disadvantages and to create a device for fastening lines with which is a precise and predefined, safe, space-saving Rende and clear management of different orien cables are possible.

The problem is solved in that the camp from at least one stackable holding module with an approx flat end face that there is a central on the end face Mounting hole for a device attached to the bracket Stigungsbolzen is provided, and that in the edge region Front side symmetrical with respect to the fastening bolt zenachse executed openings are provided, which with one or more centering pins on the lower edge of one interact stackable holding module. The triple symme basic basic shape together with the central foot Stigungsbohrung that two holding modules against each other in one Angles smaller than 180 °, and yet congruent with each other can be stacked. On the one hand, this means that orderly and space-saving cable routing per line level possible, on the other hand, the lines between two levels be oriented differently, so that orderly crossing places can be realized. Through the one with the openings interacting centering pin is a precise fixation of two stacked holding modules in predefined Positions possible.

It is preferably provided that at least two are one above the other stacked holding modules on a wing or knurled nut on fastening bolts connected to the carrier can be fastened. As a result, any number of line levels can be overlaid , with the maximum number of management levels being limited to the length of the mounting bolt and the height of the used Holder modules is determined. By turning the bearing modules around the fastening bolt axis can be realized with node bearings  be, where the lying on different levels cross not hinder each other. In the intersection the lines themselves become rich fi through the bearings xiert and thus loop formation avoided. The angle of crossing strands is thereby due to the geometric shape of the holding modules. With a square face, one prism-shaped holding module is the crossing angle for example 90 °. The holding module has the shape of a circular zy Lindner, so any crossing angle can be set.

A cost-effective and robust construction is achieved that the holding module is made of stainless steel.

In practice there has been an easy to manufacture version proven variant, in which the floor plan of the holding modules in the we is substantially of square shape.

It is necessary to implement orderly cable routing partial if at least two opposite lateral surfaces of the holding module with respect to one by the fastening bolts axis along the longitudinal plane symme Trisch arranged recesses for at least two, preferential have four lines.

The invention is explained in more detail with reference to the figures. It demonstrate:

Fig. 1, 2 and 3, an inventive storage module in the basic, upward and side elevation, the

Fig. 4, 5 and 6 base, upward and side elevation of a group consisting of a stack of storage modules bearing.

Parts with the same function have the same reference symbols.

The holding module 1 shown in FIGS . 1 to 3 has in the wesent union the shape of an open box on the underside. As shown in Fig. 1, a central mounting hole 3 is provided on the end face 2 of the holding module 1 . In the edge area 4 of the end face 2 , openings 5 are provided for receiving centering pins 6 of a stacked further holding module 1 . The centering pin 6 are arranged on lei most lateral spacers 9 . In the jacket area 7 of the holding module 1 , downwardly projecting guide strips 8 are provided for lateral guidance of lines, as can be seen in particular from FIG. 2. On at least two opposite sides of the jacket area 7 has recesses 10 for the lines 13 , 10 guide pins 11 can be provided between two recesses. Guide strips 8 and guide pin 11 can also be designed as a spacer 9 at the same time. With 18 a is a through the bolt axis 3 'in the longitudinal direction of the lines 13 extending longitudinal plane be, to which the recesses 10 are arranged symmetrically.

A Figs. 1 to 3 square basic shape of the support modules according to Figure 1 has the advantage that a Haltemo dulsstapels by rotation of a holding module 1 by 90 ° around the mounting bolt axis 3 'orientation of superimposed lines 13 to change in use and thus line crossings can be realized can. The plane of symmetry of the quadratic - that is, 4-fold symmetrical - basic shape are designated 18 a, 18 b, 18 c and 18 d.

In Figs. 4, 5 and 6, a stacked three Haltemodu len 1 existing bearing 12 with a square plan shown. The lines 13 are guided in three line levels 14 a, 14 b and 14 c, the lines 13 being arranged in parallel in the same plane. Via a fastening bolt 15 penetrating the fastening bores 3 , the stack 12 of holding modules 1 is detachably mounted on a carrier 16 , for example the control panel of a control cabinet. When using a knurling nut 17 or wing nut interacting with the fastening bolt 15 , particularly rapid assembly and disassembly of the holding modules 1 can be achieved. The centering pin 6 of the support surface 16 'adjacent Haltemodu les 1 act with openings 5 ' in the support surface 16 'to together, so that a predefined orientation of the holding modules 1 is adopted.

Holding modules 1 of square plan allow orthogonal cable routing. In special applications, line crossings at any angle, as well as line deflections at certain angles may be desired. Any angle can be achieved, for example, by holding modules, which have an essentially circular cylindrical shape. Line deflections, about 30 °, can be achieved by prismatic holding modules of triangular, hexagonal, etc. floor plan. In addition, any other polygon with an at least 3-fold symmetrical layout is conceivable.

In practice, the manufacture of the holding modules from thin-walled steel sheet has proven itself, which ensures a robust and resistant storage. It is also conceivable to manufacture the holding modules 1 from plastic.

Claims (5)

1. Device for the detachable fastening of lines ( 13 ), in particular hose, pipe and cable lines to a carrier ( 16 ), with a bearing ( 12 ) for the lines surrounding the line ( 13 ) and attached to the carrier ( 16 ), where 'has approximately parallel end face (2) which on integrally performed with the end face (2) spacers (9) of the support surface (16 in the bearing (12) a to the support surface (16)' is spaced apart), the bearing ( 12 ) in its jacket area from the end face ( 2 ) towards the support surface ( 16 ') projecting guide bars or guide pins and recesses for the lines, and the outer edges of the bearing ( 12 ) define an at least triple symmetrical plan shape, characterized in that the bearing consists of at least one stackable holding module ( 1 ) with an approximately flat end face ( 2 ) that on the end face ( 2 ) has a central mounting bracket Guide ( 3 ) is provided for a fastening bolt ( 15 ) connected to the carrier ( 16 ), and that openings ( 5 ) are provided in the edge region ( 4 ) of the end face ( 2 ) symmetrically with respect to the fastening bolt axis ( 3 '), which cooperate with one or more centering pins ( 6 ) on the lower edge of a stackable holding module ( 1 ). 2. Apparatus according to claim 1, characterized in that at least two stacked holding modules ( 1 ) via a wing or knurled nut on the ver with the carrier connected fastening bolt ( 15 ) can be fastened. 3. Apparatus according to claim 1 or 2, characterized in that the holding module ( 1 ) is made of stainless sheet metal. 4. Device according to one of claims 1 to 3, characterized in that the holding module ( 1 ) has a substantially square plan. 5. The device according to claim 4, characterized in that at least two opposite lateral surfaces of the hal tem module ( 1 ) with respect to a through the mounting bolt zenachse ( 3 ') extending longitudinally to the lines longitudinal plane ( 18 a) symmetrically arranged recesses ( 10 ) for at least two , preferably four lines.